Your search keyword '"EXPERIMENTAL ECOLOGY"' showing total 521 results

1. The effects of different densities of Asparagopsis armata (Harvey, 1855) seaweed on the clam Ruditapes philippinarum (A. Adams and Reeve, 1850): Insights from a laboratory assessment

Author

Crespo, Daniel, Leston, Sara, Rato, Lénia D., Moutinho, Ariana B., Martinho, Filipe, Novais, Sara C., Pardal, Miguel A., and Lemos, Marco F.L.

Published

2024

2. Species‐specific stoichiometric effects of leaf litter on algal growth, production, and cell quotas.

Author

Ho, Pei‐Chi, Nakajima, Suzuna, and Urabe, Jotaro

Subjects

*FOREST litter, *DISSOLVED organic matter, *ALGAL growth, *BIOMASS production, *ALGAL cells

Abstract

Dissolved organic matter and nutrients released from leaf litter are important cross‐ecosystem resources supporting freshwater food webs. Dissolved organic matter supports heterotrophic organisms in freshwater communities. However, the role of nutrients released from leaf litter in the autochthonous production in aquatic ecosystems is not well understood. Therefore, we investigated how dissolved nutrients released from leaf litter affect algal growth, biomass production, and cellular elemental ratios. Specifically, we experimentally examined the response of green algae to nitrogen (N) and phosphorus (P) released from leaf litter of 11 temperate tree species and the degree of deficiency of nutrient elements other than N and P relative to algal demand in these litter leachates by supplementing these elements. We found that algal growth did not significantly increase with dissolved N or P in the leaf leachates. In contrast, algal biomass production increased with dissolved N concentration, regardless of amendment. Algal growth and production limitation by deficiency of elements other than N and P was found only in the leachate of Japanese hemlock, indicating that the concentrations or release efficiencies of these elements in this leaf litter were lower than those of N and P relative to algal requirements. More importantly, leaf litter leachates from different tree species altered algal cell quotas and C:N:P ratios, which would affect secondary production. These results suggest that variations in leaf litter leachate stoichiometry caused by vegetation change would affect the abundance and chemical composition of phytoplankton, and thus the trophic transfer efficiency between phytoplankton and herbivorous zooplankton. [ABSTRACT FROM AUTHOR]

Published

2024

3. First success in captive breeding of the Tiger Cowrie, Cypraea tigris (Gastropoda: Cypraeidae), with notes on its early life development.

Author

Tay, Teresa S., Tong, K.E. Kayden, Sun, Yuchen, and Neo, Mei Lin

Abstract

The larval development of cowries has remained underexplored due to challenges associated with restricted growth and high mortalities, and as a result, their larvae never achieve competency or metamorphosis. In this study, we conducted a series of experiments using Cypraea tigris larvae to optimise the culture protocols. Broadly, there were no apparent differences in larval survival rates among the seawater quality levels (0.2, 1 aged, 50 μm filtered seawater). In contrast, a microalgal diet solely of Tisochrysis lutea and a mixed diet of Rhodomonas salina + Chaetoceros mulleri had higher larval survival rates than two other mixed diets (i.e., T. lutea + Tetraselmis suecica and T. suecica + R. salina). The provision of 10 ppm of the antibiotic streptomycin sulphate also boosted larval survival by preventing ciliate infection and minimising bacterial growth. We subsequently improved culture protocols by applying new information from these experiments and report the first successful captive breeding of C. tigris through to settlement. The C. tigris larvae reared at 28°C attained competency as early as 40 days post-hatching and metamorphosed by 42 days upon transfer to a well-conditioned tank. Observations of C. tigris larvae and early-stage juvenile development were documented for the first time and are reported herein. [ABSTRACT FROM AUTHOR]

Published

2024

4. The devil is in the details: Experiment reveals how a forest‐dwelling scavenger, and their excrement, may buffer ecosystem processes from climate change.

Author

Stokely, Thomas D.

Subjects

*BIOCHEMISTRY, *BIOLOGICAL extinction, *SOIL ecology, *TASMANIAN devil, *CLIMATE change, *FOREST productivity

Abstract

This article discusses a recent study that examines the role of the Tasmanian devil, an endangered species, in nutrient cycling, soil microbial diversity, forest productivity, and carbon storage in Tasmanian Eucalypt forests. The study found that the scavenging traits of the Tasmanian devil, particularly its consumption of bone material, contribute to the mobilization of critical nutrients in the forest ecosystem. The research suggests that the presence of Tasmanian devils and their scat may help buffer the forests from climate-induced changes in soil microbe, nutrient, and carbon cycling processes. These findings highlight the importance of biodiversity in maintaining ecosystem functions and processes, especially in the face of climate change and species loss. [Extracted from the article]

Published

2024

5. Predator‐driven behavioural shifts in a common lizard shape resource‐flow from marine to terrestrial ecosystems.

Author

Lapiedra, Oriol, Morales, Nina, Yang, Louie H., Fernández‐Bellon, Darío, Michaelides, Sozos N., Giery, Sean T., Piovia‐Scott, Jonah, Schoener, Thomas W., Kolbe, Jason J., and Losos, Jonathan B.

Subjects

*MARINE ecology, *LIZARDS, *ECOLOGICAL disturbances, *ECOSYSTEM dynamics, *ECOSYSTEMS, *FOOD consumption, *PREDATION

Abstract

Foraging decisions shape the structure of food webs. Therefore, a behavioural shift in a single species can potentially modify resource‐flow dynamics of entire ecosystems. To examine this, we conducted a field experiment to assess foraging niche dynamics of semi‐arboreal brown anole lizards in the presence/absence of predatory ground‐dwelling curly‐tailed lizards in a replicated set of island ecosystems. One year after experimental translocation, brown anoles exposed to these predators had drastically increased perch height and reduced consumption of marine‐derived food resources. This foraging niche shift altered marine‐to‐terrestrial resource‐flow dynamics and persisted in the diets of the first‐generation offspring. Furthermore, female lizards that displayed more risk‐taking behaviours consumed more marine prey on islands with predators present. Our results show how predator‐driven rapid behavioural shifts can alter food‐web connectivity between oceanic and terrestrial ecosystems and underscore the importance of studying behaviour‐mediated niche shifts to understand ecosystem functioning in rapidly changing environments. [ABSTRACT FROM AUTHOR]

Published

2024

6. Do feeding responses of a non-native bivalve outperform the native one in a coastal lagoon? A possible explanation for the invasion success of the dark false mussel Mytilopsis leucophaeata.

Author

Rodrigues, Nathalia, Ribeiro, Danielle, Miyahira, Igor C., Portugal, Samira G. M., Santos, Luciano N., and Neves, Raquel A. F.

Subjects

LAGOONS, BIVALVES, MUSSELS, PERNA, SESTON, PARTICULATE matter, CONCENTRATION functions, COMPETITIVE advantage in business

Abstract

The present study aimed to evaluate and compare feeding responses of the non-native and native bivalves, the dark false mussel Mytilopsis leucophaeata and the scorched mussel Brachidontes darwinianus, respectively, by offering different concentrations of seston from the coastal lagoon where these species coexist after dark false mussel introduction (Rodrigo de Freitas Lagoon, Rio de Janeiro-Brazil). For this purpose, independent laboratory experiments were carried out under five concentrations of seston to test the differences in clearance and ingestion rates of bivalves as a function of increasing concentrations of suspended particulate matter (SPM) on seston. In addition, from the integrated analysis of data obtained in experiments, it can be inferred about the efficiency levels of these species to remove SPM from seston and their effects on water turbidity and nutrient concentrations (total carbon, nitrogen, and phosphorus). Our hypothesis was that the non-native bivalve is more efficient to clear and ingest SPM from seston compared to the native one, which may lead to competitive advantages to the successful invasion of M. leucophaeata in coastal lagoons. Native species did not show a significant difference in clearance and ingestion rates with increasing concentrations of seston. Whereas the non-native bivalve showed a slight tendency to increase its clearance and ingestion rates with the increase in seston concentrations, evidencing its plasticity to adjust its feeding responses. The native bivalve was significantly more efficient to clear and ingest SPM at the lower seston concentration (i.e., close to natural concentrations found in the lagoon) compared to the non-native bivalve, which, on the other hand, showed a significant increase in its ingestion rates at the higher concentration tested (140 mg SPM L-1). Thus, the present results did not suggest food competition between the non-native M. leucophaeata and the native B. darwinianus in the introduced system. However, M. leucophaeata increased its feeding response with experimental increment in seston concentration, which suggests species ability to benefit from conditions of increased inputs of organic matter and higher primary production that could mediate its establishment in introduced systems. [ABSTRACT FROM AUTHOR]

Published

2023

7. Mesocosm Design and Implementation of Two Synchronized Case Study Experiments to Determine the Impacts of Salinization and Climate Change on the Structure and Functioning of Shallow Lakes.

Author

Özkan, Korhan, Korkmaz, Mustafa, Amorim, Cihelio Alves, Yılmaz, Gültekin, Koru, Meltem, Can, Yasemin, Pacheco, Juan Pablo, Acar, Vildan, Çolak, Mehmet Arda, Yavuz, Gül Canan, Cabrera-Lamanna, Lucía, Arıkan, Onat, Tanrıverdi, Öykü, Ertuğrul, Serhat, Arık, İrem Gamze, Nesli, Hande, Tunur, İlker H., Kuyumcu, Burak, Akyürek, Zuhal, and Özen, Can

Subjects

SALINIZATION, CLIMATE change, CLIMATE change mitigation, HEAT waves (Meteorology), IRRIGATION farming, LAKES

Abstract

Salinization of freshwater ecosystems is one of the major challenges imposed largely by climate change and excessive water abstraction for irrigated crop farming. Understanding how aquatic ecosystems respond to salinization is essential for mitigation and adaptation to the changing climate, especially in arid landscapes. Field observations provide invaluable data for this purpose, but they rarely include sufficient spatial and temporal domains; however, experimental approaches are the key to elucidating complex ecosystem responses to salinization. We established similar experimental mesocosm facilities in two different climate zones in Turkey, specifically designed to simulate the effects of salinization and climate change on shallow lake ecosystems. These facilities were used for two case-study experiments: (1) a salinity gradient experiment consisting of 16 salinity levels (range: 0–50 g/L); and (2) a heatwave experiment where two different temperature regimes (no heatwave and +6 °C for two weeks) were crossed with two salinity levels (4 and 40 g/L) with four replicates in each treatment. The experiments lasted 8 and 2 months, respectively, and the experimental mesocosms were monitored frequently. Both experiments demonstrated a significant role of salinization modulated by climate on the structure and function of lake ecosystems. Here, we present the design of the mesocosm facilities, show the basic results for both experiments and provide recommendations for the best practices for mesocosm experiments conducted under saline/hypersaline conditions. [ABSTRACT FROM AUTHOR]

Published

2023

8. Microbial mats as model to decipher climate change effect on microbial communities through a mesocosm study.

Author

Mazière, C., Duran, R., Dupuy, C., and Cravo-Laureau, C.

Subjects

CLIMATE change models, MICROBIAL mats, MICROBIAL communities, BIOGEOCHEMICAL cycles, OCEAN acidification, PHYSIOLOGICAL adaptation, SOIL microbial ecology, CLIMATE change, EDIACARAN fossils

Abstract

Marine environments are expected to be one of the most affected ecosystems by climate change, notably with increasing ocean temperature and ocean acidification. In marine environments, microbial communities provide important ecosystem services ensuring biogeochemical cycles. They are threatened by the modification of environmental parameters induced by climate change that, in turn, affect their activities. Microbial mats, ensuring important ecosystem services in coastal areas, are well-organized communities of diverse microorganisms representing accurate microbial models. It is hypothesized that their microbial diversity and metabolic versatility will reveal various adaptation strategies in response to climate change. Thus, understanding how climate change affects microbial mats will provide valuable information on microbial behaviour and functioning in changed environment. Experimental ecology, based on mesocosm approaches, provides the opportunity to control physical-chemical parameters, as close as possible to those observed in the environment. The exposure of microbial mats to physical-chemical conditions mimicking the climate change predictions will help to decipher the modification of the microbial community structure and function in response to it. Here, we present how to expose microbial mats, following a mesocosm approach, to study the impact of climate change on microbial community. [ABSTRACT FROM AUTHOR]

Published

2023

9. Physico-chemical and high frequency monitoring dataset from mesocosm experiments simulating extreme climate events in lakes

Author

Viet Tran-Khac, Philippe Quetin, Laurent Espinat, Laura Crépin, Charlotte Cousin, Pascal Perney, Jean-Christophe Hustache, Geneviève Chiapusio, Isabelle Domaizon, and Serena Rasconi

Subjects

Climate change, Aquatic ecosystems functioning, Turbid storms, Terrestrial subsidies, Experimental ecology, Large peri-alpine lakes, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

We present two datasets composed of high frequency sensors data, vertical in situ profiles and laboratory chemical analysis data, acquired during two different aquatic mesocosm experiments performed at the OLA (“Long-term observation and experimentation for lake ecosystems”) facility at the UMR CARRTEL in Thonon les Bains, on the French shore of Lake Geneva. The DOMLAC experiment lasted 3 weeks (4-21 October 2021) and aimed to simulate predicted climate scenarios (i.e. extreme events such as storms and floods) by reproducing changes in quality and composition of lake subsidies and runoff by increased inputs of terrestrial organic matter. The PARLAC experiment lasted 3 weeks (5-23 September 2022) and aimed to simulate turbid storms by light reduction.The experimental setup consisted of nine inland polyester laminated tanks (2.1 m length, 2.1 m width and 1.1 m depth) with a total volume of approximately 4000 L and filled with water directly supplied from the lake at 4m depth. Both experimental design included three treatments each replicated three times. The DOMLAC experiment involved a control treatment (no treatment applied) and two treatments simulating allochthonous inputs from two different dissolved organic matter (DOM) extract from peat moss Sphagnum sp. (Peat-Moss treatment) and Phragmites australis (Phragmite treatment). The PARLAC experiment involved a control treatment (no treatment applied) and two treatments simulating two different intensity of light reduction. In the Medium treatment transmitted light was reduced to 70% and in the High treatment transmitted light was reduced to 15%.The datasets are composed of: 1. In situ measures from automated data loggers of temperature, conductivity, dissolved oxygen and CO2 acquired every 5 minutes at 0.1, 0.5 and 1 m depth (DOMLAC) and 0.5m (PARLAC) for the entire period of the experiment. 2. In situ profiles (0-1 m) of temperature, conductivity, pH, dissolved oxygen (concentration and saturation) acquired twice a week during the experiment. 3. In situ measures of light spectral UV/VIS/IR irradiance (300-950 nm wavelength range) taken in the air and at 0, 0.5 and 1 m twice a week on the same day of the profiles at point 2. 4. Laboratory chemical analysis of integrated samples taken twice a week on the same day of the in situ profiles at point 2 and 3 of conductivity, pH, total alkalinity, NO3, total and particulate nitrogen (Ntot, Npart), PO4, total and particulate phosphorus (Ptot, Ppart), total and particulate organic carbon (TOC, POC), Ca, K, Mg, Na, Cl, SO4 and SiO2. Only for DOMLAC also analyses of NH4, NO2 and dissolved organic carbon (DOC). 5. Laboratory analysis of pigments (Chla, Chlc, carotenoids, phaeopigments) extracted from samples collected at point 4. 6. Only for DOMLAC, specific absorbance on the range 600-200nm of DOM (i.e.

Published

2023

10. Do feeding responses of a non-native bivalve outperform the native one in a coastal lagoon? A possible explanation for the invasion success of the dark false mussel Mytilopsis leucophaeata

Author

Nathalia Rodrigues, Danielle Ribeiro, Igor C. Miyahira, Samira G. M. Portugal, Luciano N. Santos, and Raquel A. F. Neves

Subjects

Invasive species, Coastal lagoon, Clearance rate, Ingestion rate, Seston, Experimental ecology, Medicine, Biology (General), QH301-705.5

Abstract

The present study aimed to evaluate and compare feeding responses of the non-native and native bivalves, the dark false mussel Mytilopsis leucophaeata and the scorched mussel Brachidontes darwinianus, respectively, by offering different concentrations of seston from the coastal lagoon where these species coexist after dark false mussel introduction (Rodrigo de Freitas Lagoon, Rio de Janeiro-Brazil). For this purpose, independent laboratory experiments were carried out under five concentrations of seston to test the differences in clearance and ingestion rates of bivalves as a function of increasing concentrations of suspended particulate matter (SPM) on seston. In addition, from the integrated analysis of data obtained in experiments, it can be inferred about the efficiency levels of these species to remove SPM from seston and their effects on water turbidity and nutrient concentrations (total carbon, nitrogen, and phosphorus). Our hypothesis was that the non-native bivalve is more efficient to clear and ingest SPM from seston compared to the native one, which may lead to competitive advantages to the successful invasion of M. leucophaeata in coastal lagoons. Native species did not show a significant difference in clearance and ingestion rates with increasing concentrations of seston. Whereas the non-native bivalve showed a slight tendency to increase its clearance and ingestion rates with the increase in seston concentrations, evidencing its plasticity to adjust its feeding responses. The native bivalve was significantly more efficient to clear and ingest SPM at the lower seston concentration (i.e., close to natural concentrations found in the lagoon) compared to the non-native bivalve, which, on the other hand, showed a significant increase in its ingestion rates at the higher concentration tested (140 mg SPM L−1). Thus, the present results did not suggest food competition between the non-native M. leucophaeata and the native B. darwinianus in the introduced system. However, M. leucophaeata increased its feeding response with experimental increment in seston concentration, which suggests species ability to benefit from conditions of increased inputs of organic matter and higher primary production that could mediate its establishment in introduced systems.

Published

2023

11. Microbial mats as model to decipher climate change effect on microbial communities through a mesocosm study

Author

C. Mazière, R. Duran, C. Dupuy, and C. Cravo-Laureau

Subjects

global change, ocean warming, ocean acidification, microbial mat, experimental ecology, mesocosms, Microbiology, QR1-502

Abstract

Marine environments are expected to be one of the most affected ecosystems by climate change, notably with increasing ocean temperature and ocean acidification. In marine environments, microbial communities provide important ecosystem services ensuring biogeochemical cycles. They are threatened by the modification of environmental parameters induced by climate change that, in turn, affect their activities. Microbial mats, ensuring important ecosystem services in coastal areas, are well-organized communities of diverse microorganisms representing accurate microbial models. It is hypothesized that their microbial diversity and metabolic versatility will reveal various adaptation strategies in response to climate change. Thus, understanding how climate change affects microbial mats will provide valuable information on microbial behaviour and functioning in changed environment. Experimental ecology, based on mesocosm approaches, provides the opportunity to control physical-chemical parameters, as close as possible to those observed in the environment. The exposure of microbial mats to physical-chemical conditions mimicking the climate change predictions will help to decipher the modification of the microbial community structure and function in response to it. Here, we present how to expose microbial mats, following a mesocosm approach, to study the impact of climate change on microbial community.

Published

2023

12. Convergence or redundancy: alternative views about the evolutionary genomics of character displacement.

Author

Crawford, Douglas L, Thompson, Max C, Conn, Trinity, Kaufman, Madeline, Voytko, Trenton, Merritt, Anna M, MacKay, Heather, Billings, Tessa, Chng, Yi, Stuart, Yoel E, and Oleksiak, Marjorie F

Subjects

*ANIMAL mechanics, *GENOMICS, *SINGLE nucleotide polymorphisms, *GENE frequency

Abstract

An evolutionary debate contrasts the importance of genetic convergence versus genetic redundancy. In genetic convergence, the same adaptive trait evolves because of similar genetic changes. In genetic redundancy, the adaptive trait evolves using different genetic combinations, and populations might not share the same genetic changes. Here we address this debate by examining single nucleotide polymorphisms (SNPs) associated with the rapid evolution of character displacement in Anolis carolinensis populations inhabiting replicate islands with and without a competitor species (1Spp and 2Spp islands, respectively). We identify 215-outliers SNPs that have improbably large FST values, low nucleotide variation, greater linkage than expected and that are enriched for genes underlying animal movement. The pattern of SNP divergence between 1Spp and 2Spp populations supports both genetic convergence and genetic redundancy for character displacement. In support of genetic convergence: all 215-outliers SNPs are shared among at least three of the five 2Spp island populations, and 23% of outlier SNPS are shared among all five 2Spp island populations. In contrast, in support of genetic redundancy: many outlier SNPs only have meaningful allele frequency differences between 1Spp and 2Spp islands on a few 2Spp islands. That is, on at least one of the 2Spp islands, 77% of outlier SNPs have allele frequencies more similar to those on 1Spp islands than to those on 2Spp islands. Focusing on genetic convergence is scientifically rigorous because it relies on replication. Yet, this focus distracts from the possibility that there are multiple, redundant genetic solutions that enhance the rate and stability of adaptive change. [ABSTRACT FROM AUTHOR]

Published

2023

13. Duration, but Not Bottle Volume, Affects Phytoplankton Community Structure and Growth Rates in Microcosm Experiments.

Author

Domingues, Rita B., Mosley, Benjamin A., Nogueira, Patrícia, Maia, Inês B., and Barbosa, Ana B.

Subjects

PHYTOPLANKTON, BOTTLES

Abstract

It is generally assumed that the larger the bottle volume, the longer the duration of phytoplankton microcosm experiments. We hypothesize that volume and duration are independent, as volume does not regulate the extension of the exponential growth phase. We conducted two microcosm experiments using 1, 2, and 8 L bottles, inoculated with phytoplankton collected in the Ria Formosa lagoon (SE Portugal) and incubated for 1, 2, 4, and 8 days. Phytoplankton net growth rates were estimated using chlorophyll a concentration and cell abundance, determined with epifluorescence and inverted microscopy. Results show that the experimental duration significantly affected net growth rates, independently of volume, with decreasing net growth rates with time. Regarding volume, we found significant, but weak, differences in net growth rates, and significant two-way interactions only for the larger-sized cells. No significant differences in net growth rates across the different volumes were detected for the smaller, most abundant taxa and for the whole assemblage. We conclude that duration, not volume, is the main factor to consider in microcosm experiments, and it should allow the measurement of responses during the exponential growth phase, which can be detected through daily sampling throughout the duration of the experiment. [ABSTRACT FROM AUTHOR]

Published

2023

14. Multitrophic and Indirect Interactions in the Baccharis dracunculifolia System

Author

Barbosa, Milton, Monteiro, Graziella França, Fernandes, G. Wilson, Fernandes, Geraldo Wilson, editor, Oki, Yumi, editor, and Barbosa, Milton, editor

Published

2021

15. Dispersal promotes stability and persistence of exploited yeast mutualisms.

Author

Liu C and Vidal MC

Subjects

Biodiversity, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae physiology, Symbiosis

Abstract

Multispecies mutualistic interactions are ubiquitous and essential in nature, yet they face several threats, many of which have been exacerbated in the Anthropocene era. Understanding the factors that drive the stability and persistence of mutualism has become increasingly important in light of global change. Although dispersal is widely recognized as a crucial spatially explicit process in maintaining biodiversity and community structure, knowledge about how the dispersal of mutualists contributes to the persistence of mutualistic systems remains limited. In this study, we used a synthetic mutualism formed by genetically modified budding yeast to investigate the effect of dispersal on the persistence and stability of mutualisms under exploitation. We found that dispersal increased the persistence of exploited mutualisms by 80% compared to the isolated systems. Furthermore, our results showed that dispersal increased local diversity, decreased beta diversity among local communities, and stabilized community structure at the regional scale. Our results indicate that dispersal can allow mutualisms to persist in meta-communities by reintroducing species that are locally competitively excluded by exploiters. With limited dispersal, e.g. due to increased fragmentation of meta-communities, mutualisms might be more prone to breakdown. Taken together, our results highlight the critical role of dispersal in facilitating the persistence of mutualism., (© The Author(s) 2025. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2025

16. Effect of Predation on Fouling Communities in an Italian Hotspot of Non-Indigenous Species.

Author

Tamburini, Marco, Ferrario, Jasmine, Piazzese, Laura, and Occhipinti-Ambrogi, Anna

Subjects

INTRODUCED species, PREDATION, FOULING, CONTROL boards (Electrical engineering), PREDATOR management, ZOSTERA marina

Abstract

The role of native predators in controlling or facilitating non-indigenous species (NIS) growing in a fouling assemblage was investigated with a 70-day caging experiment in a marina inside the Gulf of La Spezia (Italy). Submerged PVC panels were divided into three experimental treatment levels: "control panels", "open-caged panels" and "caged panels", to assess the predation effect on the fouling assemblages growing on the panels. Predation effect was observed for two investigated variables. The Shannon Index was significantly higher in caged panels in comparison with controls, while an opposite trend was observed for the coverage area of native species. When testing single NIS abundance, both facilitation and limitation of individual NIS settlement has been observed. Mean coverage of the sabellid Branchiomma luctuosum was significantly higher in caged than in uncaged or open-caged panels, while the ascidian Styela plicata was prevalent in open-caged panels. In general, a predation effect was observed when considering the whole fouling assemblage, including different trends in NIS coverage among treatment levels. The results of this first attempt performed in the Mediterranean Sea encourage further experiments to investigate the biotic resistance provided by native predators against NIS. [ABSTRACT FROM AUTHOR]

Published

2022

17. Antipredator behaviors in urban settings: Ecological experimentation powered by citizen science.

Author

Zuckerberg, Benjamin, McCabe, Jennifer D., and Gilbert, Neil A.

Subjects

*ANTIPREDATOR behavior, *PREDATION, *ANIMAL behavior, *CITIZEN science, *BIRD behavior, *BIRDS of prey

Abstract

Animal behaviors are often modified in urban settings due to changes in species assemblages and interactions. The ability of prey to respond to a predator is a critical behavior, but urban populations may experience altered predation pressure, food supplementation, and other human‐mediated disturbances that modify their responsiveness to predation risk and promote habituation.Citizen‐science programs generally focus on the collection and analysis of observational data (e.g., bird checklists), but there has been increasing interest in the engagement of citizen scientists for ecological experimentation.Our goal was to implement a behavioral experiment in which citizen scientists recorded antipredator behaviors in wild birds occupying urban areas. In North America, increasing populations of Accipiter hawks have colonized suburban and urban areas and regularly prey upon birds that frequent backyard bird feeders. This scenario, of an increasingly common avian predator hunting birds near human dwellings, offers a unique opportunity to characterize antipredator behaviors within urban passerines.For two winters, we engaged citizen scientists in Chicago, IL, USA to deploy a playback experiment and record antipredator behaviors in backyard birds. If backyard birds maintained their antipredator behaviors, we hypothesized that birds would decrease foraging behaviors and increase vigilance in response to a predator cue (hawk playback) but that these responses would be mediated by flock size, presence of sentinel species, body size, tree cover, and amount of surrounding urban area.Using a randomized control–treatment design, citizen scientists at 15 sites recorded behaviors from 3891 individual birds representing 22 species. Birds were more vigilant and foraged less during the playback of a hawk call, and these responses were strongest for individuals within larger flocks and weakest in larger‐bodied birds. We did not find effects of sentinel species, tree cover, or urbanization.By deploying a behavioral experiment, we found that backyard birds inhabiting urban landscapes largely maintained antipredator behaviors of increased vigilance and decreased foraging in response to predator cues. Experimentation in citizen science poses challenges (e.g., observation bias, sample size limitations, and reduced complexity in protocol design), but unlike programs focused solely on observational data, experimentation allows researchers to disentangle the complex factors underlying animal behavior and species interactions. [ABSTRACT FROM AUTHOR]

Published

2022

18. Correlation between the spatial distribution and colony size was common for monogenetic bacteria in laboratory conditions

Author

Heng Xue, Masaomi Kurokawa, and Bei-Wen Ying

Subjects

Spatial distribution, Colony size, Voronoi diagram, Population growth, Experimental ecology, Microbiology, QR1-502

Abstract

Abstract Background Geographically separated population growth of microbes is a common phenomenon in microbial ecology. Colonies are representative of the morphological characteristics of this structured population growth. Pattern formation by single colonies has been intensively studied, whereas the spatial distribution of colonies is poorly investigated. Results The present study describes a first trial to address the questions of whether and how the spatial distribution of colonies determines the final colony size using the model microorganism Escherichia coli, colonies of which can be grown under well-controlled laboratory conditions. A computational tool for image processing was developed to evaluate colony density, colony size and size variation, and the Voronoi diagram was applied for spatial analysis of colonies with identical space resources. A positive correlation between the final colony size and the Voronoi area was commonly identified, independent of genomic and nutritional differences, which disturbed the colony size and size variation. Conclusions This novel finding of a universal correlation between the spatial distribution and colony size not only indicated the fair distribution of spatial resources for monogenetic colonies growing with identical space resources but also indicated that the initial localization of the microbial colonies decided by chance determined the fate of the subsequent population growth. This study provides a valuable example for quantitative analysis of the complex microbial ecosystems by means of experimental ecology.

Published

2021

19. Effects of Temperature and Salinity on Podocyst Recycling of the Edible Jellyfish Rhopilema esculentum (Kishinouye, 1891).

Author

Sun, Ming, Chen, Fudi, Duan, Yan, and Sun, Jianming

Abstract

Simple Summary: This study was based on the determination of podocyst excystment, start time of strobilation, duration of strobilation, and cumulative ephyra numbers of the edible jellyfish Rhopilema esculentum (Kishinouye, 1891) podocysts which were preserved at 2 ± 1 °C for more than 12 months. To this end, the podocysts were tested under nine combinations of three variable temperatures (simulated temperatures increasing from different starting dates of 14.5 °C on 1 April, 18 °C on 1 May, and 23.2 °C on 1 July respectively to natural levels) and three salinities (20, 25, and 30). Podocyst excystment and ephyrae production occurred in all treatments. Higher temperature and lower salinity significantly facilitated the podocyst excystment and accelerated the start time of strobilation (p < 0.05). Significantly greater ephyra numbers were produced with lower salinity (20 and 25) and temperatures increasing from 18 °C on 1 May to natural levels (p < 0.05). As one of the edible jellyfish species, Rhopilema esculentum (Kishinouye, 1891) is a traditional fishery resource and an important economic aquaculture species in China. However, facing the current situation of natural resources exhaustion and problems of breeding population frequent disease, quantity, and quality of seedlings in artificial breeding cannot satisfy the market demand. Temperature and salinity have been considered to play crucial roles in regulating R. esculentum asexual reproduction. This study examined the combined effects by exposing post-preserved R. esculentum podocysts (preserved at 2 ± 1 °C for more than 12 months) to three variable temperatures (simulated temperatures increasing from different starting dates of 14.5 °C on 1 April, 18 °C on 1 May, and 23.2 °C on 1 July, respective to natural levels) and three salinities (20, 25, and 30). Podocyst excystment, the start time of strobilation, duration of strobilation, and cumulative ephyra numbers were tested for 45 days and transfer rates from podocysts to ephyrae were analyzed to assess the most optimal combination of temperature and salinity. The results showed that podocyst excystment and ephyrae production occurred in all treatments. Higher temperature and lower salinity significantly facilitated the podocyst excystment and accelerated the start time of strobilation (p < 0.05). Significantly greater ephyra numbers were produced with lower salinity (20 and 25) and temperatures increasing from 18 °C on 1 May to natural levels (p < 0.05). There were significant interactions between temperature and salinity on the cumulative ephyra numbers and transfer rates from podocysts to ephyrae (p < 0.05). These results suggested that R. esculentum podocysts for long-term preservation at low temperature could be recycled. Temperature and salinity regulation can affect the number and time of R. esculentum seedlings to achieve high production and satisfy the market demand for real-time seedling supply. This conclusion would provide a scientific basis for the innovative methods of sustainable utilization of the edible jellyfish (R. esculentum) resources. [ABSTRACT FROM AUTHOR]

Published

2022

20. Lianas Significantly Reduce Tree Performance and Biomass Accumulation Across Tropical Forests: A Global Meta-Analysis

Author

Sergio Estrada-Villegas, Sara Sofia Pedraza Narvaez, Adriana Sanchez, and Stefan A. Schnitzer

Subjects

liana-tree interactions, competition, tropical forests, removal experiments, experimental ecology, forestry, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

Lianas are a quintessential tropical plant growth-form; they are speciose and abundant in tropical forests worldwide. Lianas compete intensely with trees, reducing nearly all aspects of tree performance. However, the negative effects of lianas on trees have never been combined and quantified for multiple tropical forests. Here, we present the first comprehensive standardized quantification of the effect of lianas on trees across tropical forests worldwide. We used data from 50 liana removal experiments and quantified the effect size of lianas on tree growth, biomass accretion, reproduction, mortality, leaf water potential, sap flow velocity, and leaf area index (LAI) across different forest types. Using a three-level mixed-effect meta-analysis, we found unequivocal evidence that lianas significantly reduce tree growth and biomass accretion in ecological, logging, and silvicultural studies. Lianas also significantly reduce tree reproduction, recruitment, and physiological performance. The relative detrimental effect of lianas on trees does not increase in drier forests, where lianas tend to be more abundant. Our results highlight the substantial liana-induced reduction in tree performance and biomass accumulation, and they provide quantitative data on the effects of lianas on trees that are essential for large-scale plant demographic and ecosystem models that predict forest change and carbon dynamics.

Published

2022

21. Experimental Evolution Expands the Breadth of Adaptation to an Environmental Gradient Correlated With Genome Reduction.

Author

Kurokawa, Masaomi, Nishimura, Issei, and Ying, Bei-Wen

Subjects

ESCHERICHIA coli, ANALYTICAL chemistry

Abstract

Whether and how adaptive evolution adjusts the breadth of adaptation in coordination with the genome are essential issues for connecting evolution with ecology. To address these questions, experimental evolution in five Escherichia coli strains carrying either the wild-type genome or a reduced genome was performed in a defined minimal medium (C0). The ancestral and evolved populations were subsequently subjected to fitness and chemical niche analyses across an environmental gradient with 29 combinations of eight chemical components of the minimal medium. The results showed that adaptation was achieved not only specific to the evolutionary condition (C0), but also generally, to the environmental gradient; that is, the breadth of adaptation to the eight chemical niches was expanded. The magnitudes of the adaptive improvement and the breadth increase were both correlated with genome reduction and were highly significant in two out of eight niches (i.e., glucose and sulfate). The direct adaptation-induced correlated adaptation to the environmental gradient was determined by only a few genome mutations. An additive increase in fitness associated with the stepwise fixation of mutations was consistently observed in the reduced genomes. In summary, this preliminary survey demonstrated that evolution finely tuned the breadth of adaptation correlated with genome reduction. [ABSTRACT FROM AUTHOR]

Published

2022

22. Growth Rate of Cheek Teeth in Narrow-Skulled Vole (Lasiopodomys gregalis) Depending on Food Abrasiveness.

Author

Kropacheva, Yu. E., Smirnov, N. G., and Zykov, S. V.

Subjects

*VOLES, *MOLARS, *CHEEK, *TEETH

Abstract

The growth rate of the first lower molar and its wear features have been studied in narrow-skulled vole individuals (n = 39) that received hard and soft feeds under laboratory conditions. Using tetracycline markers, we have found that the tooth height increases by 0.33–0.56 mm throughout the day. Voles that received soft feed, in general, had a lower rate of molar growth, a lower crown, and a more obtuse wear angle of the chewing surface than the animals feeding on hard feed; they were also characterized by the appearance of lateral wear facets. As these signs of wear developed in animals fed soft food, the growth rate of the molar increased. [ABSTRACT FROM AUTHOR]

Published

2021

23. New invasive predator reduces the abundance of native prey in a cold‐temperate marine fouling community.

Author

Battini, Nicolás, Giachetti, Clara B., Castro, Karen L., Bortolus, Alejandro, and Schwindt, Evangelina

Subjects

PREY availability, PREDATION, WILDLIFE conservation, BIOTIC communities, FOULING, MARINE resources conservation

Abstract

Invasive species threaten the conservation of marine environments, and urgent management strategies are needed to prevent their introduction, establishment and spread. Specifically, marine invasive predators destabilize ecological interactions and alter community structure and function. However, most of the evidence showing the effect of these predators is restricted to a few species and regions, while for others the information remains scarce.This study experimentally evaluated the ecological effects of the sea slug Pleurobranchaea maculata, a recently introduced invasive predator, on the fouling communities of a cold‐temperate port in the South‐western Atlantic.The results show that increasing predation pressure reduces significantly the abundance of sea anemones, which are among the preferred prey items.This study reveals new evidence to help better understand the effects of P. maculata on the biological communities of a recently invaded region. Furthermore, it provides the first experimental evidence supporting the hypothesis that marine invasive predators can induce a significant decrease in the abundance of native species in benthic communities of cold‐temperate marine environments in the South‐western Atlantic. [ABSTRACT FROM AUTHOR]

Published

2021

24. Effect of Predation on Fouling Communities in an Italian Hotspot of Non-Indigenous Species

Author

Marco Tamburini, Jasmine Ferrario, Laura Piazzese, and Anna Occhipinti-Ambrogi

Subjects

macrozoobenthos, experimental ecology, bioinvasions, Western Mediterranean Sea, ports, predator exclusion, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

The role of native predators in controlling or facilitating non-indigenous species (NIS) growing in a fouling assemblage was investigated with a 70-day caging experiment in a marina inside the Gulf of La Spezia (Italy). Submerged PVC panels were divided into three experimental treatment levels: “control panels”, “open-caged panels” and “caged panels”, to assess the predation effect on the fouling assemblages growing on the panels. Predation effect was observed for two investigated variables. The Shannon Index was significantly higher in caged panels in comparison with controls, while an opposite trend was observed for the coverage area of native species. When testing single NIS abundance, both facilitation and limitation of individual NIS settlement has been observed. Mean coverage of the sabellid Branchiomma luctuosum was significantly higher in caged than in uncaged or open-caged panels, while the ascidian Styela plicata was prevalent in open-caged panels. In general, a predation effect was observed when considering the whole fouling assemblage, including different trends in NIS coverage among treatment levels. The results of this first attempt performed in the Mediterranean Sea encourage further experiments to investigate the biotic resistance provided by native predators against NIS.

Published

2022

25. Physico-chemical dataset from an in situ mesocosm experiment simulating extreme climate events in Lake Geneva (MESOLAC)

Author

Viet Tran-Khac, Pascal Perney, Laura Crépin, Philippe Quetin, Isabelle Domaizon, Stéphan Jacquet, Laurent Espinat, Clémentine Gallot, and Serena Rasconi

Subjects

Physico-chemical dataset, Experimental ecology, Climate change, Large peri-alpine lakes, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

This dataset complement a previously published dataset [1] and corresponds to the physico-chemical parameters data series produced during the MESOLAC experimental project [2]. The presented dataset is composed of: 1. In situ profiles (0–3m) of temperature, conductivity, pH, dissolved oxygen (concentration and saturation). 2. In situ measurements of light spectral UV/VIS/IR irradiance (300–950 nm wavelength range) taken at 0, 0.25, 0.5, 1, 1.5, 2 and 2.5m. 3. Laboratory chemical analysis of samples collected at 0 and 2 m (conductivity, pH, total alkalinity, NH4, NO2, NO3, total and particulate nitrogen (Ntot, Npart), PO4, total and particulate phosphorus (Ptot, Ppart), total, organic particulate and total particulate carbon (Ctot, Cpart-org, Cpart-tot), Cl, SO4, SiO2. 4. Laboratory analysis of pigments extracted from samples collected at 0 and 2 m (Chla, Chlc, carotenoids, phaeopigments).The experimental design is the same as in Tran-Khac et al [1]. Briefly, it consisted of nine pelagic mesocosms (about 3000 L, 3m depth) deployed in July 2019 in Lake Geneva near the shore of Thonon les Bains (France) aiming to simulate predicted climate scenarios (i.e. extreme events) and assess the response of planktonic communities, ecosystem functioning and resilience.During the experiment, physical parameters were measured twice a week. At the same time, samples were collected at 0 and 2m of depth for subsequent chemical laboratory analyses. These data are presented in the dataset file, ordered by sampling event (numbered from S1 to S8), treatment (Control-C, High-H and Medium-M) and replicates (1 to 3). For each sampling point the measured parameters are listed in columns, missing data and values below the detection limit are marked as NA (not available).This data set aims to contribute to the understanding of the effect of environmental forcing on lake physico-chemical characteristics (such as temperature, oxygen and nutrient concentration) under simulated intense weather events. To a broader extent, the presented data can be used for a wide variety of applications, including monitoring of a large peri-alpine lake functioning under environmental stress and being included in further meta-analysis to generalise the effect of climate change on large lakes. The two complementary dataset differ in the acquired data and methods, temporal and spatial resolution. They complete each other in terms of physico-chemical characterization of the experimental treatments and together can allow comparison of the two different monitoring strategies (continuous vs punctual) during in situ experimental manipulations.

Published

2021

26. High rates of biodeposition and N-excretion indicate strong functional effects of mussels (Bivalvia: Unionida) in certain anthropogenic tropical freshwater habitats.

Author

Zieritz, Alexandra, Chan, Wei Ning, McGowan, Suzanne, and Gibbins, Christopher

Subjects

*FRESHWATER habitats, *BIVALVES, *FRESHWATER mussels, *PADDY fields, *ABANDONED mines, *ALGAL growth

Abstract

The functional roles of freshwater mussels (Unionida) in tropical systems are poorly understood. We quantified the effects of mussel filtration, excretion and deposition in three anthropogenic tropical systems, i.e. a man-made lake, abandoned mining pool and rice paddy channel. Sinanodonta cf. woodiana (non-native) was present at all three sites, whilst Pilsbryoconcha compressa (native) was present in the channel only. Clearance rates, biodeposition rates and effects on suspended algal pigment and dissolved nutrient concentrations were quantified in controlled, replicated experiments in laboratory tanks with water from original habitats. Clearance rates were generally low and did not explain the high biodeposition rates observed. A considerable proportion of the natural diet of these populations may therefore consist of material that was not available in tanks, i.e. benthic or deposited algae. Deposition rates in lake and channel populations exceeded published rates from temperate and Mediterranean habitats, presumably due to prevalence of non-palatable material and/or higher metabolic rates in tropical systems. The presence of S. cf. woodiana but not P. compressa led to a strong increase in total ammonia nitrogen concentrations and N:P ratios, exceeding estimations from other systems. This study suggests that freshwater mussels play different functional roles in anthropogenic tropical habitats than in temperate systems. [ABSTRACT FROM AUTHOR]

Published

2021

27. Correlation between the spatial distribution and colony size was common for monogenetic bacteria in laboratory conditions.

Author

Xue, Heng, Kurokawa, Masaomi, and Ying, Bei-Wen

Subjects

BACTERIAL communities, BACTERIAL colonies, VORONOI polygons, EXTRATERRESTRIAL resources, COLONIES, MICROBIAL ecology

Abstract

Background: Geographically separated population growth of microbes is a common phenomenon in microbial ecology. Colonies are representative of the morphological characteristics of this structured population growth. Pattern formation by single colonies has been intensively studied, whereas the spatial distribution of colonies is poorly investigated. Results: The present study describes a first trial to address the questions of whether and how the spatial distribution of colonies determines the final colony size using the model microorganism Escherichia coli, colonies of which can be grown under well-controlled laboratory conditions. A computational tool for image processing was developed to evaluate colony density, colony size and size variation, and the Voronoi diagram was applied for spatial analysis of colonies with identical space resources. A positive correlation between the final colony size and the Voronoi area was commonly identified, independent of genomic and nutritional differences, which disturbed the colony size and size variation. Conclusions: This novel finding of a universal correlation between the spatial distribution and colony size not only indicated the fair distribution of spatial resources for monogenetic colonies growing with identical space resources but also indicated that the initial localization of the microbial colonies decided by chance determined the fate of the subsequent population growth. This study provides a valuable example for quantitative analysis of the complex microbial ecosystems by means of experimental ecology. [ABSTRACT FROM AUTHOR]

Published

2021

28. In situ pelagic dataset from continuous monitoring: A mesocosm experiment in Lake Geneva (MESOLAC)

Author

Viet Tran-Khac, Philippe Quetin, Isabelle Domaizon, Stéphan Jacquet, Laurent Espinat, Clémentine Gallot, and Serena Rasconi

Subjects

Automated data loggers, Experimental ecology, Climate change, Ecosystem functioning, Large peri-alpine lakes, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

This dataset corresponds to a data series produced from automated data loggers during the MESOLAC experimental project. Nine pelagic mesocosms (about 3000 L, 3 m depth) were deployed in July 2019 in Lake Geneva near the shore of Thonon les Bains (France), simulating predicted climate scenarios (i.e. intense weather events) by applying a combination of forcing. The design consisted of three treatments each replicated three times: a control treatment (named C – no treatment applied) and two different treatments simulating different intensities of weather events. The high intensity treatment (named H) aimed to reproduce short and intense weather events such as violent storms. It consisted of a short-term stress applied during the first week, with high pulse of dissolved organic carbon (5x increased concentration, i.e. total DOC ∼ 6 mg L−1), transmitted light reduced to 15% and water column manual mixing. The medium intensity treatment (named M) simulated less intense and more prolonged exposures such as during flood events. It was maintained during the 4 weeks of the experiment and consisted of 1.5x increased concentration of dissolved organic carbon (i.e. total DOC ∼ 2 mg L−1), 70% transmitted light and water column manual mixing. Automated data loggers were placed for the entire period of the experiment in the mesocosms and in the lake for comparison with natural conditions. Temperature, conductivity, dissolved oxygen and CO2 were monitored every 15 min at different depths (0.15, 0.25, 1 and 2 m).This data set aims to contribute our understanding of the effect of environmental forcing on lake ecosystem processes (such as production, respiration and CO2 exchange) under simulated intense weather events and the ability of the planktonic community to recover after perturbation. To a broader extent, the presented data can be used for a wide variety of applications, including monitoring of lake community functioning during a period of high productivity on a large peri-alpine lake and being included in further meta-analysis aiming at generalising the effect of climate change on large lakes.

Published

2020

29. A systematic review of transplant experiments in lichens and bryophytes.

Author

Mallen-Cooper, Max and Cornwell, Will K.

Subjects

*CRUST vegetation, *AIR pollutants, *META-analysis, *BRYOPHYTES, *TRANSPLANTATION of organs, tissues, etc., *TUNDRAS

Abstract

Transplant studies have long been a cornerstone of experimental ecology. Lichens and bryophytes have several useful characteristics for transplantation: they are small, easily transported, and highly responsive to environmental gradients. Here we conduct a systematic review to synthesise lichen and bryophyte transplant studies up until March 2020 (N=454). A great majority of studies (67%) used lichen and bryophyte transplants as biosensors of airborne pollutants. Other research themes such as forest management and biotic interactions were associated with comparably modest bodies of work. A total of 247 lichen and bryophyte species had been used in transplant studies, but four species predominated: Hypogymnia physodes, Pseudevernia furfuracea, Evernia prunastri and Lobaria pulmonaria. Liverworts were only transplanted in 4% of studies, and most studies focused on epiphytic (69%) or terricolous species (31%). A small group of studies (N=15) used whole-community transplants with areas ranging from 25–250,000 cm2. Apart from pollution research, studies centered on assisted colonization and simulated climate change appear to be increasing most rapidly in time. There were several recurrent lines of investigation within the included literature (e.g., edge effects, colonization of young forests, climate change effects and local adaptation) and we synthesise the key results. We recommend that future research address underrepresented taxa (e.g., liverworts, biological soil crusts) and geographic gaps, namely Australia and Africa. [ABSTRACT FROM AUTHOR]

Published

2020

30. Streamside mobile mesocosms (MOBICOS): A new modular research infrastructure for hydro‐ecological process studies across catchment‐scale gradients.

Author

Fink, Patrick, Norf, Helge, Anlanger, Christine, Brauns, Mario, Kamjunke, Norbert, Risse‐Buhl, Ute, Schmitt‐Jansen, Mechthild, Weitere, Markus, and Borchardt, Dietrich

Subjects

*ECOLOGICAL impact, *HYDRAULIC control systems, *FACTORIAL experiment designs, *BIOLOGICAL monitoring, *WATER

Abstract

A key research aim for lotic ecosystems is the identification of natural and anthropogenic pressures that impact ecosystem status and functions. As a consequence of these perturbations, many lotic ecosystems are exposed to complex combinations of nonchemical and chemical stressors. These stressors comprise temperature fluctuations, flow alterations, elevated solute loads or xenobiotics, and all these factors can pose stress upon aquatic ecosystems on different temporal, spatial and biological scales. Factorial experiments are essential to reveal causal relationships especially between combined stressors and their effects in the environment. However, experimental tools that account for the complexity of running waters across different ecosystem compartments, levels of biological organisation, natural or anthropogenic environmental gradients, and replicability are rare. Here we present a new research infrastructure consisting of streamside mobile mesocosms (MOBICOS) that allows analysing the effects of stressors and stressor combinations through multifactorial experiments in near‐natural settings and across anthropogenic pressure gradients. Consisting of eight container‐based running water laboratories operated as bypasses to running surface waters, MOBICOS combines in situ real‐time monitoring of physicochemical and biological parameters with manipulative experiments across ranges of environmental conditions. Different flume types can be set up within MOBICOS to separate and combine different ecosystem compartments (pelagic, epibenthic and hyporheic zones) in a flexible and modular way. Due to its compact design, the MOBICOS units can be shifted easily to particular sites of interest. Furthermore, simultaneous operation of multiple MOBICOS units at different sites allows the integration of natural gradients in multifactorial experiments. We highlight the versatility of the MOBICOS experimental infrastructure with two case studies addressing (a) hydraulic control of lotic biofilms and (b) pollution‐induced community tolerance of biofilms along an environmental gradient. The modular and mobile MOBICOS units have the potential to significantly advance our understanding of causal relationships between natural environmental oscillations, anthropogenic stressors and their combined ecological impacts on lotic aquatic ecosystems beyond existing stream mesocosm approaches. [ABSTRACT FROM AUTHOR]

Published

2020

31. Does an Invasive Bivalve Outperform Its Native Congener in a Heat Wave Scenario? A Laboratory Study Case with Ruditapes decussatus and R. philippinarum

Author

Daniel Crespo, Sara Leston, Lénia D. Rato, Filipe Martinho, Sara C. Novais, Miguel A. Pardal, and Marco F. L. Lemos

Subjects

biological invasions, biomarkers, bioturbation, climate change, ecosystem functioning, experimental ecology, Biology (General), QH301-705.5

Abstract

Global warming and the subsequent increase in the frequency of temperature anomalies are expected to affect marine and estuarine species’ population dynamics, latitudinal distribution, and fitness, allowing non-native opportunistic species to invade and thrive in new geographical areas. Bivalves represent a significant percentage of the benthic biomass in marine ecosystems worldwide, often with commercial interest, while mediating fundamental ecological processes. To understand how these temperature anomalies contribute to the success (or not) of biological invasions, two closely related species, the native Ruditapes decussatus and the introduced R. philippinarum, were exposed to a simulated heat wave. Organisms of both species were exposed to mean summer temperature (~18 °C) for 6 days, followed by 6 days of simulated heat wave conditions (~22 °C). Both species were analysed for key ecological processes such as bioturbation and nutrient generation—which are significant proxies for benthic function and habitat quality—and subcellular biomarkers—oxidative stress and damage, and energetic metabolism. Results showed subcellular responses to heat waves. However, such responses were not expressed at the addressed ecological levels. The subcellular responses to the heat wave in the invasive R. philippinarum pinpoint less damage and higher cellular energy allocation to cope with thermal stress, which may further improve its fitness and thus invasiveness behaviour.

Published

2021

32. Do marine protected areas increase fishery yield? A study using experimental microcosms and protist populations.

Author

Hines, Olly A L and Hines, Olly A L

Abstract

Marine protected areas (MPAs) are expected to be applied to a broad range of abiotic and biotic factors, and therefore ecosystem conditions, to deescalate over-exploitative practices that are threatening global levels of marine biodiversity and ecosystem functioning. Yet controversy and discourse remain on how this tool can match local access to benefits gained from ecosystem services with the global need to conserve marine areas to a much stronger degree. The first chapter of this thesis assesses this in depth in the form of a literature review, finding that whilst globally MPA coverage has increased, the number of unsustainably managed fishery stocks has also. Stakeholders linked with fisheries also remain hesitant to implement stronger protection of areas, due to the loss of fishing grounds. A second chapter then examines the implementation of MPAs and ‘buffer zones’ in an experimental setting, whereby a standardized ‘unsustainable’ level of harvesting effort was redistributed across a ‘landscape’. The biomass of protist populations was tracked over time and subsequently analysed in generalised linear models. Different MPA strategies correlated with changes in biomass levels and body-size distributions of populations. Implementing fully and strongly protected MPAs was associated with the greater recovery of landscape-level biomass and biomass which could be termed ‘fishable’, under a greater unsustainable total harvesting effort. There were largely non-significant differences between strategies when a lower total harvesting effort was present. Whilst this study was conducted in an experimental environment where many variables could be controlled, similarities could be seen between these populations and real-world fishery systems. These results showcase how fishery yields can be maintained despite a restriction of access and thus the wider adoption of marine protection measures to reduce the changes of future ecosystem losses.

Published

2023

33. The Foundation for Building the Conservation Capacity of Community Ecology

Author

Sinead M. Crotty, Andrew H. Altieri, John F. Bruno, Hallie Fischman, and Mark D. Bertness

Subjects

conservation biology, experimental ecology, foundation species, hierarchical organization, natural history, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Ecology is a young discipline that needs to develop into a predictive science to confront the challenges of human population pressures and habitat degradation. Basic ecology has disproportionately focused on undisturbed, charismatic ecosystems, species and academic questions, leaving gaps in its ability to inform the conservation and management of degraded, threatened ecosystems. Foundation species-dependent organisms have been studied at the expense of the habitat-forming species that build and maintain communities. We used cobble beaches as a model system to discuss the consequences of this disparity on translational ecology. We suggest that the historic development of ecology has led to an academic discipline ill-suited for proactive conservation. We propose that the incorporation of foundation species and a hierarchical organization theory, into the conceptual framework of ecology, will improve its predictive ability and successful application in conservation and the restoration of degraded ecosystems.

Published

2019

34. DOES POPULATION STABILITY EVOLVE?

Author

Mueller, Laurence D, Joshi, Amitabh, and Borash, Daniel J

Subjects

density-dependent population growth, density-dependent selection, Drosophila, experimental ecology, population cycles, population stability, time series, Ecological Applications, Ecology, Evolutionary Biology

Abstract

Population stability ultimately depends on the life-history characteristics of individuals; thus, it may be indirectly affected by natural selection acting on various life-history traits. This study investigates the efficacy of natural selection in molding the stability of populations living at an unstable equilibrium. The stability of laboratory populations of Drosophila is affected by the relative amount of food given to larvae and adults. Environments with high larval food levels and low adult food levels (HL environments) tend to have asymptotically stable carrying capacities. Environments with low larval food levels and high adult food levels (LH environments) tend to exhibit unstable dynamics, like population cycles. In this experiment, 20 populations were created from two different types of source populations. Five of the source populations had evolved for 71 generations under crowded larval conditions and uncrowded adult conditions (CU populations), while the other five source populations had evolved for a comparable time in uncrowded larval and uncrowded adult conditions (UU). In this study, five replicate CU and UU populations each were placed in both the HL and LH environments, and total adult population counts and adult biomass were recorded for 45 generations. Every five generations, we also estimated the density-dependent fecundity function in each population, since population stability depends critically on the shape of this function. While we could document phenotypic evolution in these populations for several characters due to density-dependent natural selection, there was no detectable change in the population stability characteristics of the unstable LH populations. This result is consistent with either no evolution of population stability, or very slow change. Thus, while evolution in these populations affects important life-history characteristics, these changes appear to have no detectable effects on population stability.

Published

2000

35. Growth Rate Modulation Enables Coexistence in a Competitive Exclusion Scenario Between Microbial Eukaryotes.

Author

RIBEIRO, Giulia Magri, PRADO, Paulo Inácio, COUTINHO, Renato Mendes, RILLO, Marina Costa, PEREIRA Junior, Samuel, PORFÍRIO-SOUSA, Alfredo L., and LAHR, Daniel J. G.

Subjects

*WASTE products, *BACTERIAL communities, *SYSTEM dynamics, *EUKARYOTES, *SOCIAL influence

Abstract

Coexistence usually are exceeding the explicable rate by competitive exclusion principle. Since the pioneer Gause, many studies have used protist microcosm systems to study competitive exclusion. We explored a two-species system with the testate-amoebae: (Arcella intermedia and Pyxidicula operculata), where competitive exclusion is expected to occur. We determined their growth curves individually and under competitive interaction. We used a state-space model to represent system dynamics and calculated posterior population sizes simulating competition dynamics. Contrarily to our expectation, Arcella and Pyxidicula showed similar growth rates (1.37 and 1.46 days-1 respectively) and only different carrying capacity (1,997 and 25,108 cells cm-2 respectively). The maximum number of cells of both species when growing in competition was much lower if compared to the monospecific cultures (in average, 73% and 80% less for Arcella and Pyxidicula respectively). However, our competition experiments always resulted in coexistence. According to the models, the drop in growth rates and stochasticity mainly explains our coexistence results. We propose that a context of ephemeral resources can explain these results. Additionally, we propose generating factors of stochasticity as intraspecific variation, small population effects, toxicity of waste products and influence of the bacterial community. [ABSTRACT FROM AUTHOR]

Published

2019

36. Morphological and biomechanical responses of floodplain willows to tidal flooding and salinity.

Author

Markus‐Michalczyk, Heike, Zhu, Zhenchang, and Bouma, Tjeerd J.

Subjects

*WILLOWS, *MORPHOLOGY, *BIOMECHANICS, *FLOODS, *SALINITY

Abstract

Willow floodplain plantations have been proposed as part of plans to create tidal wetlands for ecosystem‐based flooding defence of estuaries. Forests characterised by willows (genus Salix) are found in riparian floodplains in Europe up to the river mouth, e.g. up to tidal wetlands along the Scheldt and Elbe. However, sea level rise accompanied by accelerated tidal flooding and salt‐water intrusion may limit the effectiveness of willows for flooding defence of floodplains located at estuaries near their junction with the sea.We studied juvenile floodplain willows (Salix alba and Salix viminalis) in a mesocosm experiment with a combined tidal flooding and salinity treatment in a climate chamber. Permanent and semi‐permanent flooding of roots and periodic flooding of shoots reduced shoot length, shoot biomass, bending capacity, and breaking resistance. However, partial submergence did not affect shoot morphology or biomechanical traits. In S. viminalis, shoot diameter was generally larger compared to S. alba and this larger diameter resulted in a higher maximum breaking force. However, S. alba showed more consistent results in diameter size with lower variation than S. viminalis. The applied salinity treatments of up to 2 parts per thousand did not have significant effects on willow shoot morphology or biomechanical traits.We conclude that juveniles of both willow species are resilient to periodic tidal flooding and salinity values of up to 2 parts per thousand with respect to shoot traits. However, the reduction in shoot growth and biomechanical properties with permanent flooding suggests that juvenile willow establishment will be sensitive to sea level rise and increased flooding, and will result in changes in the vegetation of tidal freshwater wetlands. Salix alba and S. viminalis may serve in innovative capacities as supplementary features for estuarine flooding defence in tidal wetlands and tools for ecological restoration at appropriate sites. However, studies addressing whole ecosystems at a large scale are recommended before using S. alba and S. viminalis in floodplain plantations to protect river estuaries. [ABSTRACT FROM AUTHOR]

Published

2019

37. A trade-off between primary and secondary seed dispersal by wind.

Author

Zhu, Jinlei, Liu, Minghu, Xin, Zhiming, Liu, Zhimin, and Schurr, Frank M.

Subjects

SEED dispersal, PLANT dispersal, PLANT species, PLANT ecology, PLANT evolution

Abstract

The seeds of most plant species are dispersed by multiple mechanisms. Whether functional traits mediate positive correlations or negative correlations (trade-offs) between different dispersal mechanisms has important consequences for ecological and evolutionary dynamics. We investigate how traits affect wind-driven seed dispersal through the air and across the ground (primary and secondary wind dispersal, respectively). We hypothesized that primary and secondary wind dispersal were positively correlated because they should both decrease with the wing loading of seeds. We test this hypothesis with wind-tunnel experiments using different seed morphologies of Zygophyllum xanthoxylon (heterocarpous) and Calligonum species. We measured primary dispersal distance at varying wind speeds and release heights, and quantified secondary dispersal potential as the threshold wind speed for seed movement on four ground surfaces. Contrary to our expectation, we found a context-dependent trade-off between primary and secondary wind dispersal. The smoother the ground surface, the stronger this trade-off becomes. The trade-off results from a positive relationship between wing loading and the ratio of vertical to horizontal seed projection (v/h-ratio): an increasing v/h-ratio not only promotes secondary dispersal on smooth surfaces by increasing wind interception of seeds, but also decreases primary dispersal distance by increasing wing loading and terminal velocity of seeds. The trade-off contradicts the widespread assumption of a positive correlation between primary and secondary dispersal. A simple classification into poorly and well-dispersed seeds is thus not possible. The trade-off may affect dynamics of succession and the expansion of pioneer vegetation, while potentially slowing down evolutionary responses to selection on seed dispersal. [ABSTRACT FROM AUTHOR]

Published

2019

38. Experimental rewilding enhances grassland functional composition and pollinator habitat use.

Author

Garrido, Pablo, Mårell, Anders, Öckinger, Erik, Skarin, Anna, Jansson, Anna, Thulin, Carl‐Gustaf, and Root‐Bernstein, Meredith

Subjects

*GRASSLANDS, *POLLINATORS, *HERBIVORES, *PLANT communities, *BIODIVERSITY

Abstract

Semi‐natural grasslands are rich in biodiversity and thus important habitats for conservation, yet they are experiencing rapid declines due to agricultural intensification and abandonment. Promoting a more diverse mammalian herbivore community, including large and megaherbivores, may result in positive cascade effects for biodiversity and ecosystem functioning. Therefore, reintroducing an ecologically functional substitute of an extinct large herbivore could mitigate current biodiversity declines and foster semi‐natural grassland conservation.To test this hypothesis, we set up a 3‐year rewilding experiment where 12 feral horses were introduced in three 10‐hectare enclosure replicates (four horses per enclosure). We used community‐weighted mean plant functional traits to elucidate plant community changes induced by grazing through time. We also investigated the effects of this experimental treatment on insect pollinated plants and on pollinator habitat use.The grassland community exerted a mixed tolerance/avoidance response to grazing. This resulted in plant functional compositional changes which favoured prostrate plant species with higher specific leaf area, characteristic of ruderal communities.Plant species richness was higher in grazed compared to ungrazed areas. Butterfly and bumblebee habitat use, as well as feeding and resting activities were also higher in grazed areas. Moreover, the number of pollinators increased with plant species richness.Synthesis and applications. This study demonstrates that, to enhance the diversity of a given herbivore community with ecological replacements of extinct wild horses can have significant effects on the functional composition of grasslands. It can also mitigate plant species declines, in particular bee‐dependent plants, and boost pollinator habitat use. Novel management alternatives are urgently needed to reverse the negative effect of land abandonment in European agricultural landscapes. Thus, rewilding interventions with large mammalian herbivores may offset current biodiversity declines by maintaining important functional links between plants and pollinators in grassland ecosystems. This study demonstrates that, to enhance the diversity of a given herbivore community with ecological replacements of extinct wild horses can have significant effects on the functional composition of grasslands. It can also mitigate plant species declines, in particular bee‐dependent plants, and boost pollinator habitat use. Novel management alternatives are urgently needed to reverse the negative effect of land abandonment in European agricultural landscapes. Thus, rewilding interventions with large mammalian herbivores may offset current biodiversity declines by maintaining important functional links between plants and pollinators in grassland ecosystems. [ABSTRACT FROM AUTHOR]

Published

2019

39. CLIMATE CHANGE: A CONTROLLED EXPERIMENT.

Author

Wullschleger, Stan D. and Strahl, Maya

Subjects

*EXPERIMENTAL ecology, *CARBON dioxide & the environment, *ATMOSPHERIC temperature, *PRECIPITATION variability

Abstract

The article discusses a controlled experiment investigating climate change which was conducted at the U.S. Department of Energy's (DOE) Oak Ridge National Laboratory. Scientists carefully manipulated grasslands and forests to determine how the biosphere is affected by changes in precipitation, temperature, and carbon dioxide (CO2). An in-depth discussion of each variable and its corresponding experiment is presented. INSETS: PRECIPITATION: TIMING IS EVERYTHING;CO2: GREATER GROWTH FOR SOME;TEMPERATURE: HIGHS AND LOWS;HOW SOYBEANS FARE

Published

2010

40. The Propagule Method as an Experimental Tool in Foraminiferal Ecology

Author

Alve, Elisabeth, Goldstein, Susan T., Allan, Rod, Series editor, Förstner, Ulrich, Series editor, Salomons, Wim, Series editor, Kitazato, Hiroshi, editor, and M. Bernhard, Joan, editor

Published

2014

41. Duration, but Not Bottle Volume, Affects Phytoplankton Community Structure and Growth Rates in Microcosm Experiments

Author

Rita B. Domingues, Benjamin A. Mosley, Patrícia Nogueira, Inês B. Maia, and Ana B. Barbosa

Subjects

Experimental ecology, Microcosms, Phytoplankton, Geography, Planning and Development, Bottle volume, microcosms, experimental design, bottle volume, incubation period, phytoplankton, experimental ecology, Incubation period, Aquatic Science, Biochemistry, Experimental design, Water Science and Technology

Abstract

It is generally assumed that the larger the bottle volume, the longer the duration of phytoplankton microcosm experiments. We hypothesize that volume and duration are independent, as volume does not regulate the extension of the exponential growth phase. We conducted two microcosm experiments using 1, 2, and 8 L bottles, inoculated with phytoplankton collected in the Ria Formosa lagoon (SE Portugal) and incubated for 1, 2, 4, and 8 days. Phytoplankton net growth rates were estimated using chlorophyll a concentration and cell abundance, determined with epifluorescence and inverted microscopy. Results show that the experimental duration significantly affected net growth rates, independently of volume, with decreasing net growth rates with time. Regarding volume, we found significant, but weak, differences in net growth rates, and significant two-way interactions only for the larger-sized cells. No significant differences in net growth rates across the different volumes were detected for the smaller, most abundant taxa and for the whole assemblage. We conclude that duration, not volume, is the main factor to consider in microcosm experiments, and it should allow the measurement of responses during the exponential growth phase, which can be detected through daily sampling throughout the duration of the experiment. LA/P/0069/2020 info:eu-repo/semantics/publishedVersion

Published

2023

42. Does carnivory pay off? Experiments on the effects of different types of diet on growth and development of Bufo bufo (Linnaeus, 1758) tadpoles and carry-over effects after metamorphosis.

Author

Craioveanu, Octavian, Craioveanu, Cristina, Ghira, Ioan, Mireșan, Vioara, and Hartel, Tibor

Subjects

BUFO bufo, TADPOLES, METAMORPHOSIS, EXPERIMENTAL ecology, GRAZING

Abstract

Copyright of Herpetozoa is the property of Pensoft Publishers and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

43. To replicate, or not to replicate – that is the question: how to tackle nonlinear responses in ecological experiments.

Author

Chase, Jonathan, Kreyling, Juergen, Schweiger, Andreas H., Bahn, Michael, Ineson, Phil, Migliavacca, Mirco, Morel‐Journel, Thibaut, Schtickzelle, Nicolas, Christiansen, Jesper Riis, and Larsen, Klaus Steenberg

Subjects

*EXPERIMENTAL ecology, *CLIMATE change, *EXPERIMENTAL design, *REPLICATION (Experimental design), *STOCHASTIC analysis

Abstract

A fundamental challenge in experimental ecology is to capture nonlinearities of ecological responses to interacting environmental drivers. Here, we demonstrate that gradient designs outperform replicated designs for detecting and quantifying nonlinear responses. We report the results of (1) multiple computer simulations and (2) two purpose‐designed empirical experiments. The findings consistently revealed that unreplicated sampling at a maximum number of sampling locations maximised prediction success (i.e. the R² to the known truth) irrespective of the amount of stochasticity and the underlying response surfaces, including combinations of two linear, unimodal or saturating drivers. For the two empirical experiments, the same pattern was found, with gradient designs outperforming replicated designs in revealing the response surfaces of underlying drivers. Our findings suggest that a move to gradient designs in ecological experiments could be a major step towards unravelling underlying response patterns to continuous and interacting environmental drivers in a feasible and statistically powerful way. [ABSTRACT FROM AUTHOR]

Published

2018

44. A comprehensive synthesis of liana removal experiments in tropical forests.

Author

Estrada‐Villegas, Sergio and Schnitzer, Stefan A.

Subjects

TROPICAL forests, ANIMAL-plant relationships, LIANAS, EFFECT of logging on forest biodiversity, FOREST ecology

Abstract

Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

45. Getting Started With Sensor Networks in Experimental Ecology: Pitfalls and Pratfalls.

Author

Collins, Scott L. and Brown, Renée F.

Subjects

SENSOR networks, EXPERIMENTAL ecology, CARBON dioxide detectors, FIELD research, RAINFALL

Abstract

The article offers information on the use of sensor networks in experimental ecology. Topics discussed include development and use of sensors in ecological field research; monitoring and comparing ecological systems within the National Ecological Observatory Network; and use of carbon dioxide sensors for high temporal resolution measurement of soil respiration in the Monsoon Rainfall Manipulation Experiment.

Published

2018

46. Application of Microfluidics in Experimental Ecology: The Importance of Being Spatial.

Author

Nagy, Krisztina, Ábrahám, Ágnes, Keymer, Juan E., and Galajda, Péter

Subjects

MICROFLUIDICS, EXPERIMENTAL ecology, CELL communication

Abstract

Microfluidics is an emerging technology that is used more and more in biology experiments. Its capabilities of creating precisely controlled conditions in cellular dimensions make it ideal to explore cell-cell and cell-environment interactions. Thus, a wide spectrum of problems in microbial ecology can be studied using engineered microbial habitats. Moreover, artificial microfluidic ecosystems can serve as model systems to test ecology theories and principles that apply on a higher level in the hierarchy of biological organization. In this mini review we aim to demonstrate the versatility of microfluidics and the diversity of its applications that help the advance of microbiology, and in more general, experimental ecology. [ABSTRACT FROM AUTHOR]

Published

2018

47. Enclosed Experimental Ecosystems and Scale : Tools for Understanding and Managing Coastal Ecosystems

Author

John E. Petersen, Victor S. Kennedy, William C. Dennison, W. Michael Kemp, John E. Petersen, Victor S. Kennedy, William C. Dennison, and W. Michael Kemp

Subjects

Marine ecosystem management--Research--Methodology, Experimental ecology, Coastal ecology--Research--Methodology, Biotic communities--Research--Methodology

Abstract

Enclosed ecosystem experiments have gained in popularity as research tools in ecological science, particularly in the study of coastal aquatic environments. These systems provide scientists with a degree of experimental control that is not achievable through field experiments. Yet to date, techniques for systematically extrapolating results from small-scale experimental ecosystems to larger, deeper, more open, more biologically diverse, and more heterogeneous ecosystems in nature have not been well developed. Likewise, researchers have lacked methods for comparing and extrapolating information among natural ecosystems that differ in scale. Enclosed Experimental Ecosystems and Scale: Tools for Understanding and Managing Coastal Ecosystems provides scientists, managers, and policy makers with an introduction to what has been termed the'problem of scale', and presents information that will allow for improved design and interpretation of enclosed experimental aquatic ecosystems. The book integrates the results of a 10-year research project involving a multi-disciplinary team of scientists and students to explore scale-related questions in a variety of coastal habitats. Anticipating use as a reference, the book has been designed so that individual sections and individual pages can function as stand alone units.

Published

2009

48. Letters between Georgii F. Gause and Vito Volterra

Author

Israel, Giorgio, Gasca, Ana Millán, Israel, Giorgio, and Gasca, Ana Millán

Published

2002

49. Envisioning future innovative experimental ecosystems through the foresight approach. Case: Design Factory.

Author

Munigala, Vikram, Oinonen, Päivi, and Ekman, Kalevi

Subjects

*TECHNOLOGICAL innovations, *EXPERIMENTAL ecology, *DEEP ecology, *QUALITATIVE research, *QUANTITATIVE research

Abstract

Change makers are visionaries who wish to bring change to their respective fields. As technological change is accelerating, it is relevant to consider, how the way and what we teach can evolve with the future to remain meaningful and pioneering. Design Factory at Aalto University, as an innovative experimental ecosystem with interdisciplinary principles and new teaching methodologies has been successful in and at the forefront in educating the students to be change-makers. The paper presents a case study of holistically anticipating plausible futures for innovative experimental ecosystems utilizing a foresight approach. We analyze how the ways of working, spaces, and teaching methods of one such ecosystem, Design Factory at Aalto University in Finland, could support students learning in the year 20 × 6 {x = 2, 3}. We present the process of drawing virtual lines that connect trends, future drivers, visions, and scenarios using a contemporary approach that fuses qualitative and quantitative methods. The results from the study are six future scenarios for the Design Factory, that have implications for innovation ecosystems in general. These results are expected to further foster or trigger new research and development experiments, directions for building radical environments, new teaching methods and ways of working. [ABSTRACT FROM AUTHOR]

Published

2017

50. Variation of Oxygenation Conditions on a Hydrocarbonoclastic Microbial Community Reveals Alcanivorax and Cycloclasticus Ecotypes.

Author

Terrisse, Fanny, Cravo-Laureau, Cristiana, Noël, Cyril, Cagnon, Christine, Dumbrell, Alex J., McGenity, Terry J., and Duran, Robert

Subjects

OXYGENATION (Chemistry), OIL spills

Abstract

Deciphering the ecology of marine obligate hydrocarbonoclastic bacteria (MOHCB) is of crucial importance for understanding their success in occupying distinct niches in hydrocarbon-contaminated marine environments after oil spills. In marine coastal sediments, MOHCB are particularly subjected to extreme fluctuating conditions due to redox oscillations several times a day as a result of mechanical (tide, waves and currents) and biological (bioturbation) reworking of the sediment. The adaptation of MOHCB to the redox oscillations was investigated by an experimental ecology approach, subjecting a hydrocarbon-degrading microbial community to contrasting oxygenation regimes including permanent anoxic conditions, anoxic/oxic oscillations and permanent oxic conditions. The most ubiquitous MOHCB, Alcanivorax and Cycloclasticus, showed different behaviors, especially under anoxic/oxic oscillation conditions, which were more favorable for Alcanivorax than for Cycloclasticus. The micro-diversity of 16S rRNA gene transcripts from these genera revealed specific ecotypes for different oxygenation conditions and their dynamics. It is likely that such ecotypes allow the colonization of distinct ecological niches that may explain the success of Alcanivorax and Cycloclasticus in hydrocarbon-contaminated coastal sediments during oil-spills. [ABSTRACT FROM AUTHOR]

Published

2017